MC11g0181 (gene) Bitter gourd (Dali-11) v1
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Overview
Sequences
The following sequences are available for this feature:
Legend: utr5CDSpolypeptideutr3 Hold the cursor over a type above to highlight its positions in the sequence below.AAAAACCTCTAGGTGCATAAATACTTGGAGGGTAGCAATTAAATTAACAACATTTATGGGGCAATTAATCTTGATATGGAACTTTTAAGGAGGGGCATAAATGGAAGAAAAACCTCTAGGTGGGGGTGTTCTGTATTAGGCCCTAGGCCCAGGCCCAGGCCCAGGCCCAAGTTGAATATAGACTTGTAGAATCCAGAGTGGGACCAAGCCCATTAAACAGTGGTCATAAATTTAGTGAAGGTCCAAGGTTAGGGTGTTATGCAATGAAAGGCAACTAAATGACGAAAGCAACTCCAGAAGAAGAAGAACAACTCTGGATCTTCTTCTGTCATCCCATTCCCATTTTCTCTCCCTTTCCGGTCTGAACCACGACAAAATAGAAGTCGCACTCCTCTCTCTTTCCTTCAAATTCCGATGATCAGAATCTCCGGTGCGCTGAGATAACTGAAAATACCACACCACCATTGCCATATTTATGGATTCGTAACTGTCCGTTCCTTCTACTTGAAGGAAACGCCCAATCTTTAAAACTCGAAGAAGCAGGATTCTTCGTTTTTTTCGTTTAAAGTGGTTTCTATACCCTGCTGCTTCACTCACTCGGAGCTGCGCCTGGATTTCTATATGGCCGGTCGTAAGGACAAAGCTCAGTCAGCTCGCGTGTCTCGGGTTGCCGTCGCTATCGGAATCGGAATTCTAATTGGGTGTGTTTTTGCTTTCTTACATCCTCATGGGTTTTTCGACTCTGATCTGCCTATCCGAAACCGTCGACTCGGGAAATCGGAGTTCCAGGTTTGGTACTTGTTGCCCTAATTCCCGTTTCTGTGCGATTCTGAATTTATTTCCAATTTGAATTCTTATTTATCGTTTCTGATAGCGGCATGAATCTGAATGGGCAAATACGTATTTAGAGAAAATTCTAATTAATCTCTTACCACGGCTGAGGGAGTGAACTTTAACCTTAGACTTTCAATCTCATAAAATTGAGTGGTGAGGTTAATACTGAATTAGTTAAATTTTCAGATTTTTAGCTAGCACGAGCGTTATTGTGGCTGGATCAGTAATTCTGGTGGTTGTGTATAGTTTTTACTTGGGTTTATATTTTCTTGGTTGGATTGTGTATTTCTTTTGAGTTTGTACTTCTTAAAAAGTGAACGTTAAAATTGACTCACTGAATTGAGTAAGTACGAGTACTAGTTCTTATGATAACTATTCTACAGGATTAACCTTTTGGAGGCTCTGGTAATTCAGAACATTTCCATGTTCCAAAAATATTACACGTACAGTAGAGGCTCAACTGAATTCAGTCTTTTCATTTCAATTAAGAAGATGAACGTAACATTATCTAATGATCTTTTTCAGTTTATTTCTAGCTTTATTACGCTGTGCCTCGAGCTTAATTGAGTAAATCTTGAGTGGGCATGGAGTATTTACTCAGTTTGGACTTGCTACGAAAGTTTGTTCCAGGAACGTCCACTGGTTTATTATCTTAAACTTGGTACTTAAGAGATTAACTGCACTGAATATTGATGGTATCTTTAGTCTTTCCGAGATCACAGATGCGACAAAGGAAGCTTTTTGTATATCCTTAATTTCCCAACTTTTCCCTCTTTTACAGGTTCAGTCTTCTTCCCCATGTGAATCTTCGGAGCGGTTCAAGATGCTTAAAGGTGATGTTGTTTCAATATTAGATAAGAACTCCCTGTTGGAGAAGCGTATCAGGGATTTAACAAGGGAGCTGAGGATAGTGGAACAAGCGAAAGATCATGCACAGAAGCAATATTTGGCGCTTGGTGAAAATCACAAGGCTGGTCCGTTTGGTACTGTCAAGGGTCTTAGAACCAACCCTACCGTAATCCCTGATGAATCCGTGAATCCTCGACTGGCAAAACTCTTGGAGAAAGTTGCTGTTAATAAAGAGCTTATTGTGACACTTGCAAATTCTAATGTAAAACCCATGTTGGAGGTCTGGTTTACCAGCATCAAGAAAGTCGGCATACCAAATTATTTAGTCGTGGCTCTGGACGACCAGACAGAAGATCTCTGCATATCCCAAGATGTTCCTGTCTACAAGAGAGATCCAGACAAGAGCATTGATTCGGTTGGAAAGGGAGGAGGCAACCATGAAGTCTCTGCATTGAAGTTTCGCATTCTGAGGGAGTTCTTGCAACTTGGATACAGTGTTCTTCTCTCGGACGTTGATATAGTCTACATACAGAACCCTTTTGATCATCTCTACCGTGATTCAGATGTGGAGTCAATGAGCGATGGTCACAACAACATGACAGCTTATGGATACAATGATGTATTTGATGAACCCGCCATGGGTTGGGCTCGATACGCACACACTATGAGAATATGGGTTTACAACTCTGGTTTCTTCTTCATTAGGCCTACACTTCCTTCATTTGAGCTTTTAGATCGTGTCGCGACTCGGCTTTCTCAAGAAAAGGCATGGGACCAAGCTGTGTTTAACGAGGAACTCTTTTTTCCTTCACGTCCTGGATGCGACGGCCTTCACGCCTCCAAGAGAACCATGGATATGTATCTCTTCATGAACAGTAAGGTACTCTTCAAGACCGTTCGGAAGGATGCGAGACTCAGACAGTTGAAACCCGTCATTGTTCATATAAATTACCATCCCAACAAATATCCTAGAATGAAAGCAGTCGTAGAATTCTTCGTCAATGGTAAGCAAAACGCTCTGGACTCATTCCCAGATGGTTCTGAATGACAAGACCCTCCTGTAGCACACATCATCACAGAGCCGAGTTTTAAACAATTCAGCTGCTACAAGAAAGATTCATTTGATAATCATCCCTTCAGAAAAAAAGAAAGCACTGCAAACAATTCACCTGTTATTCTCTTCTCCGAGGTTTTTGCCGATGTACTTCTGTAAGAACATCGGTAACGATGTAACTAAGATTGAGAAAACTTTATCTTCTGCAAAAGGAAAAAATTTCCTTGACTTATTACACCATTATGGGTCTATGTTATTGTTCTTCCATGTGTTTGTAAGGTTGTTTGCTCGTGTAATGTGCCCATAATGTTGAACCAAAAATCATGTGCCAGTGACAATCTCACTGTGACGACAGCTTGTCTTTCCTAACTTTTGGCACTATCTGTAGAAGAGAAGAGACTTCGAATTAATGGACATCACAAAAATTTCAGATGAATGGCCACCAAGAGAATTTTAATTGGTCTGCGCAGCCTAATTCCAAAAAACCAGCCTAATGACCCTTCTTTATTTGGCAGGAGTTCCTTCTTATCCAATATCCACAAAATCAAATCTTCTCCAACTGCTTGTGTGGCTTAAATCCCAGATGGCTCCCTGAGTCAGCCCCACTTTTGTCTTCTTCTTCTGTGTTTTCGTTTTCCACAACTTCTGTTTTCTCCTCTGAAGGCTTTTTTTCCTCTATATCATGCTTTCAACTTCCTCTGCAACTGTTTTTAGAGAAATTGAGATACCTTGAGGAGGAACTCGCGGGTTCGCCATTCCCGCCAATTGTCATTTGAAATTGAAGCGGCTGAAGTAAGAATTAGCTAGGGAGGAGGATTTTTTTTTTTTTTTTCCCTGGGGGAGATGGGGGTTTGTTGAGGGAGGAAATGGAGAAATTGTCGCAGAGAGAGAGCACTCTTTTGGGTTATTCACTTCAGAGATCATTCACGAACCCTTCTTCATCGCCTAGGGCTCCGTATCGTAACTCAGACGATGTTGATTTTCACGACGTGTTCGGTGGCCCTCCGAGAAGGCGGTCGTCGGTTAACGAGGCGCGGTACAGCTTCACGGAGACGGTGGATTCCTTCGCATTGAGAGGCGGGGACGGTGAAGCGCCGCCGTGGTCCGGTTTGAATGAGAAACCGGTGTTCGGAGAAGAAGGTGGTCACGCGCGGCGATTTCCGAGCGATGATTTTTACGATGATATCTTTAAGGGCGATGAATCGGCGGCTTCTTCACCACGCCGAGACGTTTTCTCTTCGATTTCGGATTCGAGGGTTCTGAGTCCGGCTAGGCCTCTTCCACCTCCGGCAGAGCCCTTCGGAAGTTCTTCCCTCCCTGCCCAATTAAGGTTCTTCTTCACTTGGCTTAATTTTCTTACATTATTACGTTTCTAAAGGGAAGTTACTTTTTTTTCTTTTTTCTAAGTGTCCGAATTTTCAAAAACTACACTGTAGCATAGAACATCGTAAATTAATTTTTTTAAATTTTAGGGTTACATTAGATGTTTTTTTAAAGAACAACAAAGCTATGCTCATATTGGGATGTTTGGTCTCTAAATTTAATTGTGTTTAATAAGCTTTTAAATTTAGAAAAGTGAATGATGTAAAAATTAAAAAAAAAAAATTAGAAAAGTGAACATCTGTTCTTTTCTAAAAAATAAAGTGTTCAATAACTTCTTAATATTTTGATAAATTTCTAAACTTAAAAAAATATTTAATTTTTTTAATAAGTTACTGAATTGAATTTTAAATTTTATGTTCAATAAATTTCTAAACTTTTAATTTATGTATATTTGATTTATATGATATTTTTTAAAGCAAAATTTAAATTCATCAAATTTTTAACAATTTTTAAAATTTAGGTAAAATTGAAAGTTTAAAGGAGTCTAAGGAGCTAAACTAGTTAAGGTAGATAGGTTAAATTGTCCCTCATGCATTTTGCTAACACTCAAGGGTAGATGAGGAAAAAGGAAATTAAAAAAAAAACGTGAAATTTGATGACTGAAGTGATGATTTAATCAAGATTTAGCTAATAACTCGGATCAAAACGATGGAGAAAACAGGCAATGATCATGGATTTCATCCCTAAACTTTATGAGCGGCTAATTTTCTAAGCTTTGATGAATGAATGGGCTCTTTGTATCTAGTCTTGATGTTCTTGTGGCTCCGGCTGCCATGTGATAGATATTTTTGTTAACGTCTTACTTCTGTTCTTCTGTTTCTTGTGCCAGCCTACCATCAAGATCGGCCAAAGGGACTGACCTGCCAGCGTTTGGATCGACTTCTCCGAACCCGTTCAGAAACAAGGACAGTGTTTCAAATGGAAGCCATACAAATTCTTCTAGGTTCGCTCTCTCTAGATTTTCTTCTAGCACATCGAGCCATCGTCACGAGGATCTTAAAAGCGATTACAATTCGTCTGATCGTACTGGTCTTCTGTCATCTGAATTCCAACATCTTAGCAGTGAGGAAGCATCATCCTTCAGAAAGTCTGATAATACATTGAGTGGGAACAGTTCAACCAAAGAAGTAGATAGTTTAGAAGATTCAACTGCAGGTGGTCAGTTTCAGTTTCATTTCTCAATCTACAAATGGGCAAGCAAAGGGGTGCCTCTGATGATGCCACTGAGAGGAGGGAACGCTTCGAGATTAAGAGAAAAAGCTATGCTTCGGAGAAGCTCGAGCTCAACGGATAGGGTAGCGAAGGAGAAGAATGAGATGCAGTCCCCTACGTCGACTATACATAATATTGATTTTCCTCCCATTTTTCATGAAACAACTAATCTCAATGATGAAAAAGGAACTGGTTTACTGCCTGACATTGATGCTGAAGATCAAAGAAGGCCCGGTCGAAGTTTTGAGCAAACAAATTCAGCTGCACCTTCAGGAAACTTGAGCAGACAGAGTTCTCGTAAGGGTGTTGGTAGTGATAACATCATGAACCAAACAGGGGAAAAGGTAAGACCTCGTTCTTTGTCCGAGACCATTCCGAGTGAAAAAGCAGAGAAAAAGACCGCTCTGATTACAAATGAAGATCAAAAGCAGGAACGTAAATCTCTAAGTTCCTTCCTACTCTATAATGATGATGAACAAGGTATGTTCTATTGCGACACAACTTCCTTTCGTGTTTGTTTTATATGGTTCTCATTACCGGTCTTATTTTGTGCAGGTGAAGAAGGGATATCTAAAGAGTATCGTAAAGAGGTAACCGCGGCAAAAAGTGACAAGAAATCATCTATGCCTTCGGATTTAAGTAGCAGCCCAAAGAAACAGGACAAAAAAACTTCACCGAGAAATCCAGAAGTAAAAAAATCCAGTTTCCAAAGTTCAGACACGGAATCTGGACATAACATTGGCAGAAAAAAAGTTGGTGGAAAAATCTCGGAGTTTGTTAAGATTTTCAACCAAGAACCTGCTCCAAAATCCCGAGATGTAGTTGACTCAGAAAACGATACCTCTACAAGGAAACAAGAAGGAATTTCAAAAGCTCAAATTGAAGCAACTGTCAAAAAAATAAGCAAGGATGAGAAAGAGAAACCTAAGTTGAATATCAATACAGATGCTTCCATCAAGGTACTGATTAAAAATAAATCAACCATCTCTAGCAGATATGACTCACGCTCTTTTACTCCATTGAAGATAAGGATTGGTAAGTAAAAAATATTCTTGATGATCCTTAATTTTCAATCTTTGTAGGTAAATGATGTTCTAAAGCAGTCAGTGGATGATCACTCTGCTAAAAAGACTTATAGCTCCAATTCTTCCAAAGAGGATAGCTCAGTACCAGGTTAGTCATAGTAGTCTAATTGGGGCTTGGTGCAACAACACCTAGAAATAAACAAAGTTGTAAATGTTCGGAAATATTGACACGAAATGGACTCTAATCTTTTAGGTAATTCTCAGTTTTATGTATAAAAATATTTCAATGATGTTAAAATTTGTTGGCAAAAAGTTGAAATATCATTAAATTATTCAGATGCCACTTGACCTGTGAAATCCAACTCACTCGACAAAATTCATTTCTTTCCAATGGCACGTTCAAGTATGTCCACATGTTAACAAAATAATAACTTAAACTACAAATTAACTTTTGATTAACAAACTTTAACACATTTTTCTGTGGAACCACTCAATTGAGAATTTTTAGTACATTAAAGGTATAATTGAAAGTTCAAAAAGATTCTGGGCAAAGTTGAGAAAAATCTTATTTACCAAAAAATGAAATAGAAGTTATGTTGTTCTCACGCCAAATTTTCATCCAGTGTATCTTATTTGTCTGTTTTTGTTTGATTACACATATACTATTAAAGATTCAATCATCTGATAACAATTTTATTTCTTTATATCAGTTCACATTCCCGTTGTCTCTAAGCCTAAAGTGCCAGATATGGAGGAGCCATTCCAAGAGAATTTCATGGTATGTTAAATAGATTCTATCTAGTTTTTTGCACACAAAATGCTTAGATCCCATATGGACTGAATTCTTTGTATTGGTCATCTCCTTTCTTATTCCATACCTAACTATCTAACAAGCTGATTCGGTTGGTTTGTGATCAGGTAAAGGAGTTACCACAAGAGTACGAGAGGGAAAAGGTGAACAATCTCGAAGAATTCCGAGTAATGCATCTCAAATTAAATACATGTATTTGTTGTTATTGCAGCATGTGAGGAAGTAAACCAATACGAACTTCTTATGATGCAGGCTATCGATGCTAAAATACAACAATGGTCAAACGGGAAGGAAGGGAATATACGTTCGCTACTATCAACTTTGCAATCTGTGAGACTCTTATCTTATTAGCTATGTTGGTTGGCAAGCAATTTACATGGTCTTAGATGCTTTGCTTCACCATTTACATTTTTTAACTCGAGAAGAACATTTTGGTTAAATTTCAAGTCTGATCTCTGAACTTTCAAAATTATGTTTATTTAATTCAGTTTAAAAGTTTTTAATAGGTCCCAACATTTTTAATTTTGTGTCTAATAGATCCCTTATCATTAACTTGAGTAGTTTAACACTTCATAACATGGTTACTGTATTATTTTTAAGGATTACTTGATGAGTTGATTTTGAGCTTGTTAGGTATTTGGTGGTGCAAATTTTAAAATTGCTGGTAGGGACCTATTAGAAACTTTTAAAAGTAAAAGGATGAAATAGACATGTAAATTTGAAAGTTAAGAGACTTATTAGAAACTTTTTAAAGTACATGAGTGAACTAAATTGATACAACCCTTCAAGTTCATGGACTAAACTTATAATTTAACTGAGCGTTTCCTGTGATTATTACATCTGTAGTTCATTCTCGAGATCTACGCTCGACGTTTCTTCAATTTCTATAAACTATTGGTTGGTGTGCAAGGTTCTTTGGCCTAAGAGCGGTTGGAAACCCGTCCCTCTTGTGGATATAATCGAAGGAAGTGCAGTCAAAAGATCTTATCAGAAAGCTCTGTTATACCTACACCCTGATAAGCTACAACAGAAGGGTGCTTCATCAGATCAGAAGTATATAGCAGCAAAAGTTTTTGATATATTACAGGTATTCAAGTTTAATTCTGCATACCAAATTCAGACAGAACCAAACATAAATTGTCTCTTTAACCGTTGTGTTTCATTAATCTTAACGAAAGCCAAATAGTTTTGAGGTTTTTCTTTGGATCCATGTAGGAGGCTTGGACTCATTTCAGTACGATGAGTGGATTATGATATCATGAAATCACAGCATTAAGGAAATGAGGTGCGCACAAACAAGTGTCTATATTCAGCTTTTTAAAGTGTTATTTGCATTTACATACGTAGAAATATTGAAATGTTCTTTAATATAGAAAATAAAATTGAAATATTTTCGTTTATTGATTACAGAATAATGCTTTTCATTATACCCATTGCCCTTTGATAGACATCTGTAATGTAATATAATATTGTAAAAAGAAAAAAATAAAGACTTGGAAAAATATGGGAAATAATTTGATTGGAGAATGCCATGGATAAAGGCCTTTTGAAATAGAAGTTCATTGGGGCTTGGTGGGTCAAAATGTTGGAATGAAAGGAAGTTTTTTATTTTTTTAAAATATATAAATGTAAAGATGGGGGTTAAACTTCCGACCTTTTGGTCTTGGATATATATCCTAAGTTGGTTTCGAATGAAAATAAAACTTGTTATATTGCCAACATCTTTAATTGCACTCAAATTATTTCTCTTGTTTCTGCACTTTTAAAAGTTCTAAATATTTTTAACTTCTACCTCATCAATTTTAATGGTCCTACTACTCAATTCATGAGGTTAAAAAATTAATCGATCGTATTAACATCATGTCAATCAAATGGCAGTCGAGAACTATTGGTACCTTACAAAGGAAAGTTTAAATAATTGTAAATAATATTTTTGTCGTAGCAATTTAGACTTTTGTTTATTTTAAATCTTATACTTTCGAAATATTTATTTTGGTTTTGTAATTTTAATTTTGGTTCATTTTAGTCCTTATATTCTTAAAATGTTTATTTTTGTCTTTGTACTTTTACAAAGTGATTAATTTGGTCTCTATTTGTAAAATTTTAGTACATTTTATATATGATAGAAATATTTTAATATAAATTTATAGCTATATTTCAAGAATTTAATGAGTAAAATATCAGGTTAAAATTATGAATCACAAGAAATTTGATAAAAGTAAAAATAAAATGATCAAAATAGTTACTTTTTAAAAATACAATTCGAAAGTAAAGATACTAAAATGAACTAAAGTTGGAAATACATAAATAAAAAAATAAATTAAAATTAAAAATACATGGACTAAAATAAATATTTGGAAGTCTAGGTACTAAAATTTTTATCACAATGAGTTGCAAACAGAAAGTAATTAAACAAAAATAAAAATAGAAAATCAAAGTCGATGAATAAACTAAAACTTTCAATATTATCTTAAAAATAAAAAAAAAAAAAAAAACTCTATGGTAGGGGCAAAATTGGCAGAAACAGAAAAAGACGACGTAAACTACGGGGGCAAAGCTCAGTTTTCTGAATTTGGGCCGCGAATAGATGGGCTCAGAACTAAAGATTTAAAATGATGAAGCCCATGAATAAGGAAGCGGCCCACTAAATCAAAATTTTGCAGATGATCCCATTTTTCTTTAATGGAGGTAGCCGTTGGTTACCCACTATTGTTGTTCTTTTTGTATTGTCTGGTGCGGGTGAGGGGTGAGGAACTTTTGGATTCTTTTTGTAAACGGTAAGGAAGTTGGCCATATACAACGCGACACGTGTGCTTTTTAAGTTTTTTCCACATCAACAACTGACTGTGACCCTTTGCCAAAGCCTTCCTTTGCCATTTCCAACTTCCTTCCACAAATACCCCCATTCCCATTTATACCCTTCCACGTCTTCACAAATCACGACCTATCCCTCTCCATTTTTCAAATATTCGTTTTATTAGCATTTCATTGTTGTTATATTATAAATTAGCCTAAAAAACTCAGGGGTGTGCCTGGTTTAATTTTAAAAAATAATCAACTAATTCTAATTCTAATAACTTGTTGGTATCAATTACTATCACAGATATGAGCCGCAAATAAAACCAACAAATAAAGATTTCACGTAACATGATTTAAGAGTAGTTCTTCCATGTAAATTAAAAACATACAACGCATAAAAAATTTACAAAAAGACGACGTGTGAAATACATTTTAAATTGAATATTTTTTATTTTTTTGGTATATTTACCTTCATTTCCTTTAGTTACTTTACTTTTTTGTGTCACTTAATCATGCAAATCATTACTCCTAATTTAATTAACATGTCACATCAACATTCAAGTAATGAAATTAACAACATAGGTTTATTAAAAAGAAAGTTTAAAACGACTTAAGGATATAATAAAAATTGAAACCTTTTTTAATTATCAAAATTGACAAACTAAGTTTGAAATCTGCATTTATTATTTGGAGTAGATGACTTATGACTTAATTATTTACCCTTTTTAAACTATACATTTTTTATTTTCTAACACATTTACCCAATGGGCAAGTAGACTGACATGTGCTCTTAATATAATGTTGAAATATTAACTTATTCCTCCAAAAATATTAAATTACTATTAGTCCTTTGGAGGTAAATCAATGGTTTGACTTAGCTGAAAATTATATCTATATATTTTATATATTTATTGAGTTTAATAATAAGTAGAGGGGATAGTTTGATCATCTAACTTAGTTACAATAGATTAGTTATTTGAATTATTCTTAAGTTATATTTTATTTTTAATCAGATAGACTTAATTGAGTTGGTAAAATTCTACGGGTGTTGTTATTTAAAAAAAAAATATATCAAATAACATACTCACCTACATTATTTTCACAATATATAATGCAAAAAATTAAAATAATAACAATGTCCTAATATCATTGAATTGTAGAAATAAAAGGGCAAGGGGAATTCTCTTGCCTTTCCATTTTCCAATGAATTACGTAAATAGACTTAAATAAGGTACACCGTTCATTTTTCTTCAATTTTATATGAGAATGGTTCAAATGTAAATATTGATGGTACGTAGGGGTAAATTGGGTTATTGGGCCATCCTACGTGAAGACAAATCGGTTAAAGTCCATCTCCACGTGTGCATTGTCACCGGCTATTGCAGGTTTCCCGTCCAAATCCAAAGCGAGCCTTCCGCTTAAAATTCCTCTCAACAATCGACCCGTTTCTTCGTCGTTCTCCGCCCACAGAGTCTCTGTTCTCTCTCTCTCTGTTACGCCCTTCTGTTCTGCTTCTGCACTGCCAAACCCTAGGGCTTTCTCGCAAGTATTTTCCCCTTCATCATCAATAATCCCTACATTTTCGTCTCGAAATCGCCTAGTTGTCTTGAAATTTTGACGTTCCCGGAGATAGCTTCGTTTTGATTCAGACCGAATTCGATTTTAGAAGGAATTTACGCGGACGGATATCTTTCTTGAGCAATGTATGTGGCTGCGAAGTTCCGATCGCACGCTAAGCCGGTTTTGGAGTCCCGAGCAATTCTTGGACCCGGCGGGAACAGAGATAGGGTCCCTGAGAAGCCGAGATGCAAACACGAGACGACGTTGACGAAGACGGAGAAGCAGAACAAGGCACTTCCGGCGGTTCCGGATTCGGTTATTCGGGATAATGTCTCCGTCGGTAGTTCATGTTCTTCCGATTCTTTATCAAGCAACTATTCGGCCAAATTGTTGAATCCGAAAGTGAAGCCCTACGCCGTGAAACCTGTAAAGGCTGTTGCTGCCGGCAGTGAGGCAGACGCAACCACAACGTCCCCCAGGCACTCCGTTCCGCGTAAACGGTGTGATTGGATAACGCCTTATTCTGGTAAGCAAGCTTAAGCTCTGTTTGTCATTGACTATTACTTGCTTTAACTAATTAAGTAGAATCTTCTGGTTGTTGAGAAAGTGATGGATATGAGAAGGATAAGAAACAAATGGGAATTTCTATTCCGAACATAAAATTTGTTTAATCTCGATTTAATTATCATATTGTAATTTGTACTTGCACTGCAGTCTTTTTCTTTTTTCTTTTTTTAATGCAATTAAATTCATATTTTATTAAGAGGAGAACATCAGAGCACTGTTAATATATAGATTTAGAATAATAATAATCAAATTACTTAGAATAAATATTTCGGTTAGGTACGTTCTAAAAAATATATAAAACTGAGTTTTCTGTTTATTAATCATTAATCGATTTTGAGATAATGTGGTGACCTACCAACCTGAGTATAATTTCTTAAAAAAAAAAAAGAAAGAAAAGTGGTGCATAATACAAATAATTATACATTTATGTTGAGGGTTAGATGTTTGAATCTTTTTTAATATTTTTACTTTGATAATTAAATCGCATTTAATTAGCATTTTTTTTCTAATTTTATGTTTGTATCATACTTATTTGTTCACAATTTCTTTGACATACAACTTTCTTAAAACCACCTTCAATCGTTTAGCCAAATTTCAAAATAATAAGTTTTTTTTAATTACTTTAGTTTTCAAAATTTGACTTAGATTTAAAAAATGTTTTTGAAAGATAGAAGGAAAACATGGATGAAATGAGTGTTTGTAAAACAAAATAGTTATCAAATTAGATATAAAGTAACCCTTTCATTTTGAATTTTAATATCTTTTTAATCTTGTAATGTAATATGATGGTTTCTTGTGGTAGACCCACTTTACATCGCTTTTCATGACGAAGAATGGGGAGTCCCAATTCATGATGACAAGAAGCTGTTTGAGTTACTTGTATTATCACAAGCCTTAGCAGAACTTACTTGGCCCTCGATTCTTAGCAAGAGAGACGTATTTAGGTATACTTCTATTTCTTATTTTTGGCCCAAAACTTCTATAAAAATATCGGCTCCCTAAAAGTATAATGTTCTGAGGATGCTATTACTTCTCGTCTTGGCAGGAAAGTTTTTAATGATTTTGACCCATCTTCCATCGCTAAGTTCACAGAGAATGAGTTTGCAACACTAAAAGTTAATGGCATCCAGGTTCTGACTGAACCAAAGCTTCGTGCAATCGTGGAGAATGCTAATCAAGTACTCAAGGTATTGCATTTTTCATTTTTGTTAAGCTTTAGCACTTTCCTGCCTATTGTTAAAAGCCAAAGCCATCCACAGGAGGAAGGCGTTTGGCAGTCTCAACTTCCATCACTTTCAAGTGGTTGATAGCTGAATCTCTACGTTTTCATTGCCTTTTTACCCCACTTCACAGATTCAACAGGAATTTGGTTCCTTTAGCAACTACTGTTGGAGCTTTGTTAACAAGAAGCCTATACGAAACAGATTTCGATATGCTCGTCAAGTACCCGTAAAGACGCCGAAAGCAGAGTCCATGAGCAAGGATCTGATCCGGAGAGGGTTCCGATGTGTCGGGCCAACCGTGGTTTATTCCTTCATGCAGGTTACCGGAATTGTCAACGATCACTTGGTGAATTGCTTCAGATATCAAGAATGTGATGCAAATGTAAAAGACGATATGAAACCAAGAGTAGAAGATCTGAGGTTGGAGTTGCATAACGGAGCTTCGGAGAAGCCTTGCTTGTCAAGATCTTGACTAGATTGAAGAAGAAAGGTTATCTCTAACTAATCTTACAAATCACTGTAATAAAATGTCGCTGATGTTGAACACGTGTAGTGCTGAGTAGTTACGTTTGAGTTCGTTTTTGTTCAGAATTTATAATTTGCCTTCTTTGTAGATGTATTAACATTGATTTTATGCATGATTTAATTGTAATTTGTATTAACAGACGACAAACCCATGTTGGTTTCCTGTAATTATTTCTGAAACTGCAGAATGTGCTTTCCTTGGTCGAGCAGAAGAAAAAGGGCATTCATCTCAAATGTCAAAGCTCGCTCCCTTTGGTAAAAA AAAAACCTCTAGGTGCATAAATACTTGGAGGGTAGCAATTAAATTAACAACATTTATGGGGCAATTAATCTTGATATGGAACTTTTAAGGAGGGGCATAAATGGAAGAAAAACCTCTAGGTGGGGGTGTTCTGTATTAGGCCCTAGGCCCAGGCCCAGGCCCAGGCCCAAGTTGAATATAGACTTGTAGAATCCAGAGTGGGACCAAGCCCATTAAACAGTGGTCATAAATTTAGTGAAGGTCCAAGGTTAGGGTGTTATGCAATGAAAGGCAACTAAATGACGAAAGCAACTCCAGAAGAAGAAGAACAACTCTGGATCTTCTTCTGTCATCCCATTCCCATTTTCTCTCCCTTTCCGGTCTGAACCACGACAAAATAGAAGTCGCACTCCTCTCTCTTTCCTTCAAATTCCGATGATCAGAATCTCCGGTGCGCTGAGATAACTGAAAATACCACACCACCATTGCCATATTTATGGATTCGTAACTGTCCGTTCCTTCTACTTGAAGGAAACGCCCAATCTTTAAAACTCGAAGAAGCAGGATTCTTCGTTTTTTTCGTTTAAAGTGGTTTCTATACCCTGCTGCTTCACTCACTCGGAGCTGCGCCTGGATTTCTATATGGCCGGTCGTAAGGACAAAGCTCAGTCAGCTCGCGTGTCTCGGGTTGCCGTCGCTATCGGAATCGGAATTCTAATTGGGTGTGTTTTTGCTTTCTTACATCCTCATGGGTTTTTCGACTCTGATCTGCCTATCCGAAACCGTCGACTCGGGAAATCGGAGTTCCAGGTTCAGTCTTCTTCCCCATGTGAATCTTCGGAGCGGTTCAAGATGCTTAAAGGTGATGTTGTTTCAATATTAGATAAGAACTCCCTGTTGGAGAAGCGTATCAGGGATTTAACAAGGGAGCTGAGGATAGTGGAACAAGCGAAAGATCATGCACAGAAGCAATATTTGGCGCTTGGTGAAAATCACAAGGCTGGTCCGTTTGGTACTGTCAAGGGTCTTAGAACCAACCCTACCGTAATCCCTGATGAATCCGTGAATCCTCGACTGGCAAAACTCTTGGAGAAAGTTGCTGTTAATAAAGAGCTTATTGTGACACTTGCAAATTCTAATGTAAAACCCATGTTGGAGGTCTGGTTTACCAGCATCAAGAAAGTCGGCATACCAAATTATTTAGTCGTGGCTCTGGACGACCAGACAGAAGATCTCTGCATATCCCAAGATGTTCCTGTCTACAAGAGAGATCCAGACAAGAGCATTGATTCGGTTGGAAAGGGAGGAGGCAACCATGAAGTCTCTGCATTGAAGTTTCGCATTCTGAGGGAGTTCTTGCAACTTGGATACAGTGTTCTTCTCTCGGACGTTGATATAGTCTACATACAGAACCCTTTTGATCATCTCTACCGTGATTCAGATGTGGAGTCAATGAGCGATGGTCACAACAACATGACAGCTTATGGATACAATGATGTATTTGATGAACCCGCCATGGGTTGGGCTCGATACGCACACACTATGAGAATATGGGTTTACAACTCTGGTTTCTTCTTCATTAGGCCTACACTTCCTTCATTTGAGCTTTTAGATCGTGTCGCGACTCGGCTTTCTCAAGAAAAGGCATGGGACCAAGCTGTGTTTAACGAGGAACTCTTTTTTCCTTCACGTCCTGGATGCGACGGCCTTCACGCCTCCAAGAGAACCATGGATATGTATCTCTTCATGAACAGTAAGGTACTCTTCAAGACCGTTCGGAAGGATGCGAGACTCAGACAGTTGAAACCCGTCATTGTTCATATAAATTACCATCCCAACAAATATCCTAGAATGAAAGCAGTCGTAGAATTCTTCGTCAATGGTAAGCAAAACGCTCTGGACTCATTCCCAGATGGTTCTGAATGACAAGACCCTCCTGTAGCACACATCATCACAGAGCCGAGTTTTAAACAATTCAGCTGCTACAAGAAAGATTCATTTGATAATCATCCCTTCAGAAAAAAAGAAAGCACTGCAAACAATTCACCTGTTATTCTCTTCTCCGAGGTTTTTGCCGATGTACTTCTGTAAGAACATCGGTAACGATGTAACTAAGATTGAGAAAACTTTATCTTCTGCAAAAGGAAAAAATTTCCTTGACTTATTACACCATTATGGGTCTATGTTATTGTTCTTCCATGTGTTTGTAAGGTTGTTTGCTCGTGTAATGTGCCCATAATGTTGAACCAAAAATCATGTGCCAGTGACAATCTCACTGTGACGACAGCTTGTCTTTCCTAACTTTTGGCACTATCTGTAGAAGAGAAGAGACTTCGAATTAATGGACATCACAAAAATTTCAGATGAATGGCCACCAAGAGAATTTTAATTGGTCTGCGCAGCCTAATTCCAAAAAACCAGCCTAATGACCCTTCTTTATTTGGCAGGAGTTCCTTCTTATCCAATATCCACAAAATCAAATCTTCTCCAACTGCTTGTGTGGCTTAAATCCCAGATGGCTCCCTGAGTCAGCCCCACTTTTGTCTTCTTCTTCTGTGTTTTCGTTTTCCACAACTTCTGTTTTCTCCTCTGAAGGCTTTTTTTCCTCTATATCATGCTTTCAACTTCCTCTGCAACTGTTTTTAGAGAAATTGAGATACCTTGAGGAGGAACTCGCGGGTTCGCCATTCCCGCCAATTGTCATTTGAAATTGAAGCGGCTGAAGTAAGAATTAGCTAGGGAGGAGGATTTTTTTTTTTTTTTTCCCTGGGGGAGATGGGGGTTTGTTGAGGGAGGAAATGGAGAAATTGTCGCAGAGAGAGAGCACTCTTTTGGGTTATTCACTTCAGAGATCATTCACGAACCCTTCTTCATCGCCTAGGGCTCCGTATCGTAACTCAGACGATGTTGATTTTCACGACGTGTTCGGTGGCCCTCCGAGAAGGCGGTCGTCGGTTAACGAGGCGCGGTACAGCTTCACGGAGACGGTGGATTCCTTCGCATTGAGAGGCGGGGACGGTGAAGCGCCGCCGTGGTCCGGTTTGAATGAGAAACCGGTGTTCGGAGAAGAAGGTGGTCACGCGCGGCGATTTCCGAGCGATGATTTTTACGATGATATCTTTAAGGGCGATGAATCGGCGGCTTCTTCACCACGCCGAGACGTTTTCTCTTCGATTTCGGATTCGAGGGTTCTGAGTCCGGCTAGGCCTCTTCCACCTCCGGCAGAGCCCTTCGGAAGTTCTTCCCTCCCTGCCCAATTAAGCCTACCATCAAGATCGGCCAAAGGGACTGACCTGCCAGCGTTTGGATCGACTTCTCCGAACCCGTTCAGAAACAAGGACAGTGTTTCAAATGGAAGCCATACAAATTCTTCTAGGTTCGCTCTCTCTAGATTTTCTTCTAGCACATCGAGCCATCGTCACGAGGATCTTAAAAGCGATTACAATTCGTCTGATCGTACTGGTCTTCTGTCATCTGAATTCCAACATCTTAGCAGTGAGGAAGCATCATCCTTCAGAAAGTCTGATAATACATTGAGTGGGAACAGTTCAACCAAAGAAGTAGATAGTTTAGAAGATTCAACTGCAGGTGGTCAGTTTCAGTTTCATTTCTCAATCTACAAATGGGCAAGCAAAGGGGTGCCTCTGATGATGCCACTGAGAGGAGGGAACGCTTCGAGATTAAGAGAAAAAGCTATGCTTCGGAGAAGCTCGAGCTCAACGGATAGGGTAGCGAAGGAGAAGAATGAGATGCAGTCCCCTACGTCGACTATACATAATATTGATTTTCCTCCCATTTTTCATGAAACAACTAATCTCAATGATGAAAAAGGAACTGGTTTACTGCCTGACATTGATGCTGAAGATCAAAGAAGGCCCGGTCGAAGTTTTGAGCAAACAAATTCAGCTGCACCTTCAGGAAACTTGAGCAGACAGAGTTCTCGTAAGGGTGTTGGTAGTGATAACATCATGAACCAAACAGGGGAAAAGGTAAGACCTCGTTCTTTGTCCGAGACCATTCCGAGTGAAAAAGCAGAGAAAAAGACCGCTCTGATTACAAATGAAGATCAAAAGCAGGAACGTAAATCTCTAAGTTCCTTCCTACTCTATAATGATGATGAACAAGGTATGTTCTATTGCGACACAACTTCCTTTCGTGTTTGTTTTATATGGTTCTCATTACCGGTCTTATTTTGTGCAGGTGAAGAAGGGATATCTAAAGAGTATCGTAAAGAGGTAACCGCGGCAAAAAGTGACAAGAAATCATCTATGCCTTCGGATTTAAGTAGCAGCCCAAAGAAACAGGACAAAAAAACTTCACCGAGAAATCCAGAAGTAAAAAAATCCAGTTTCCAAAGTTCAGACACGGAATCTGGACATAACATTGGCAGAAAAAAAGTTGGTGGAAAAATCTCGGAGTTTGTTAAGATTTTCAACCAAGAACCTGCTCCAAAATCCCGAGATGTAGTTGACTCAGAAAACGATACCTCTACAAGGAAACAAGAAGGAATTTCAAAAGCTCAAATTGAAGCAACTGTCAAAAAAATAAGCAAGGATGAGAAAGAGAAACCTAAGTTGAATATCAATACAGATGCTTCCATCAAGCCCTACGCCGTGAAACCTGTAAAGGCTGTTGCTGCCGGCAGTGAGGCAGACGCAACCACAACGTCCCCCAGGCACTCCGTTCCGCGTAAACGGTGTGATTGGATAACGCCTTATTCTGACCCACTTTACATCGCTTTTCATGACGAAGAATGGGGAGTCCCAATTCATGATGACAAGAAGCTGTTTGAGTTACTTGTATTATCACAAGCCTTAGCAGAACTTACTTGGCCCTCGATTCTTAGCAAGAGAGACGTATTTAGGAAAGTTTTTAATGATTTTGACCCATCTTCCATCGCTAAGTTCACAGAGAATGAGTTTGCAACACTAAAAGTTAATGGCATCCAGGTTCTGACTGAACCAAAGCTTCGTGCAATCGTGGAGAATGCTAATCAAGTACTCAAGATTCAACAGGAATTTGGTTCCTTTAGCAACTACTGTTGGAGCTTTGTTAACAAGAAGCCTATACGAAACAGATTTCGATATGCTCGTCAAGTACCCGTAAAGACGCCGAAAGCAGAGTCCATGAGCAAGGATCTGATCCGGAGAGGGTTCCGATGTGTCGGGCCAACCGTGGTTTATTCCTTCATGCAGGTTACCGGAATTGTCAACGATCACTTGGTGAATTGCTTCAGATATCAAGAATGTGATGCAAATGTAAAAGACGATATGAAACCAAGAGTAGAAGATCTGAGGTTGGAGTTGCATAACGGAGCTTCGGAGAAGCCTTGCTTGTCAAGATCTTGACTAGATTGAAGAAGAAAGAAGAAAAAGGGCATTCATCTCAAATGTCAAAGCTCGCTCCCTTTGGTAAAAA ATGGAGAAATTGTCGCAGAGAGAGAGCACTCTTTTGGGTTATTCACTTCAGAGATCATTCACGAACCCTTCTTCATCGCCTAGGGCTCCGTATCGTAACTCAGACGATGTTGATTTTCACGACGTGTTCGGTGGCCCTCCGAGAAGGCGGTCGTCGGTTAACGAGGCGCGGTACAGCTTCACGGAGACGGTGGATTCCTTCGCATTGAGAGGCGGGGACGGTGAAGCGCCGCCGTGGTCCGGTTTGAATGAGAAACCGGTGTTCGGAGAAGAAGGTGGTCACGCGCGGCGATTTCCGAGCGATGATTTTTACGATGATATCTTTAAGGGCGATGAATCGGCGGCTTCTTCACCACGCCGAGACGTTTTCTCTTCGATTTCGGATTCGAGGGTTCTGAGTCCGGCTAGGCCTCTTCCACCTCCGGCAGAGCCCTTCGGAAGTTCTTCCCTCCCTGCCCAATTAAGCCTACCATCAAGATCGGCCAAAGGGACTGACCTGCCAGCGTTTGGATCGACTTCTCCGAACCCGTTCAGAAACAAGGACAGTGTTTCAAATGGAAGCCATACAAATTCTTCTAGGTTCGCTCTCTCTAGATTTTCTTCTAGCACATCGAGCCATCGTCACGAGGATCTTAAAAGCGATTACAATTCGTCTGATCGTACTGGTCTTCTGTCATCTGAATTCCAACATCTTAGCAGTGAGGAAGCATCATCCTTCAGAAAGTCTGATAATACATTGAGTGGGAACAGTTCAACCAAAGAAGTAGATAGTTTAGAAGATTCAACTGCAGGTGGTCAGTTTCAGTTTCATTTCTCAATCTACAAATGGGCAAGCAAAGGGGTGCCTCTGATGATGCCACTGAGAGGAGGGAACGCTTCGAGATTAAGAGAAAAAGCTATGCTTCGGAGAAGCTCGAGCTCAACGGATAGGGTAGCGAAGGAGAAGAATGAGATGCAGTCCCCTACGTCGACTATACATAATATTGATTTTCCTCCCATTTTTCATGAAACAACTAATCTCAATGATGAAAAAGGAACTGGTTTACTGCCTGACATTGATGCTGAAGATCAAAGAAGGCCCGGTCGAAGTTTTGAGCAAACAAATTCAGCTGCACCTTCAGGAAACTTGAGCAGACAGAGTTCTCGTAAGGGTGTTGGTAGTGATAACATCATGAACCAAACAGGGGAAAAGGTAAGACCTCGTTCTTTGTCCGAGACCATTCCGAGTGAAAAAGCAGAGAAAAAGACCGCTCTGATTACAAATGAAGATCAAAAGCAGGAACGTAAATCTCTAAGTTCCTTCCTACTCTATAATGATGATGAACAAGGTATGTTCTATTGCGACACAACTTCCTTTCGTGTTTGTTTTATATGGTTCTCATTACCGGTCTTATTTTGTGCAGGTGAAGAAGGGATATCTAAAGAGTATCGTAAAGAGGTAACCGCGGCAAAAAGTGACAAGAAATCATCTATGCCTTCGGATTTAAGTAGCAGCCCAAAGAAACAGGACAAAAAAACTTCACCGAGAAATCCAGAAGTAAAAAAATCCAGTTTCCAAAGTTCAGACACGGAATCTGGACATAACATTGGCAGAAAAAAAGTTGGTGGAAAAATCTCGGAGTTTGTTAAGATTTTCAACCAAGAACCTGCTCCAAAATCCCGAGATGTAGTTGACTCAGAAAACGATACCTCTACAAGGAAACAAGAAGGAATTTCAAAAGCTCAAATTGAAGCAACTGTCAAAAAAATAAGCAAGGATGAGAAAGAGAAACCTAAGTTGAATATCAATACAGATGCTTCCATCAAGCCCTACGCCGTGAAACCTGTAAAGGCTGTTGCTGCCGGCAGTGAGGCAGACGCAACCACAACGTCCCCCAGGCACTCCGTTCCGCGTAAACGGTGTGATTGGATAACGCCTTATTCTGACCCACTTTACATCGCTTTTCATGACGAAGAATGGGGAGTCCCAATTCATGATGACAAGAAGCTGTTTGAGTTACTTGTATTATCACAAGCCTTAGCAGAACTTACTTGGCCCTCGATTCTTAGCAAGAGAGACGTATTTAGGAAAGTTTTTAATGATTTTGACCCATCTTCCATCGCTAAGTTCACAGAGAATGAGTTTGCAACACTAAAAGTTAATGGCATCCAGGTTCTGACTGAACCAAAGCTTCGTGCAATCGTGGAGAATGCTAATCAAGTACTCAAGATTCAACAGGAATTTGGTTCCTTTAGCAACTACTGTTGGAGCTTTGTTAACAAGAAGCCTATACGAAACAGATTTCGATATGCTCGTCAAGTACCCGTAAAGACGCCGAAAGCAGAGTCCATGAGCAAGGATCTGATCCGGAGAGGGTTCCGATGTGTCGGGCCAACCGTGGTTTATTCCTTCATGCAGGTTACCGGAATTGTCAACGATCACTTGGTGAATTGCTTCAGATATCAAGAATGTGATGCAAATGTAAAAGACGATATGAAACCAAGAGTAGAAGATCTGAGGTTGGAGTTGCATAACGGAGCTTCGGAGAAGCCTTGCTTGTCAAGATCTTGA MEKLSQRESTLLGYSLQRSFTNPSSSPRAPYRNSDDVDFHDVFGGPPRRRSSVNEARYSFTETVDSFALRGGDGEAPPWSGLNEKPVFGEEGGHARRFPSDDFYDDIFKGDESAASSPRRDVFSSISDSRVLSPARPLPPPAEPFGSSSLPAQLSLPSRSAKGTDLPAFGSTSPNPFRNKDSVSNGSHTNSSRFALSRFSSSTSSHRHEDLKSDYNSSDRTGLLSSEFQHLSSEEASSFRKSDNTLSGNSSTKEVDSLEDSTAGGQFQFHFSIYKWASKGVPLMMPLRGGNASRLREKAMLRRSSSSTDRVAKEKNEMQSPTSTIHNIDFPPIFHETTNLNDEKGTGLLPDIDAEDQRRPGRSFEQTNSAAPSGNLSRQSSRKGVGSDNIMNQTGEKVRPRSLSETIPSEKAEKKTALITNEDQKQERKSLSSFLLYNDDEQGMFYCDTTSFRVCFIWFSLPVLFCAGEEGISKEYRKEVTAAKSDKKSSMPSDLSSSPKKQDKKTSPRNPEVKKSSFQSSDTESGHNIGRKKVGGKISEFVKIFNQEPAPKSRDVVDSENDTSTRKQEGISKAQIEATVKKISKDEKEKPKLNINTDASIKPYAVKPVKAVAAGSEADATTTSPRHSVPRKRCDWITPYSDPLYIAFHDEEWGVPIHDDKKLFELLVLSQALAELTWPSILSKRDVFRKVFNDFDPSSIAKFTENEFATLKVNGIQVLTEPKLRAIVENANQVLKIQQEFGSFSNYCWSFVNKKPIRNRFRYARQVPVKTPKAESMSKDLIRRGFRCVGPTVVYSFMQVTGIVNDHLVNCFRYQECDANVKDDMKPRVEDLRLELHNGASEKPCLSRS Homology
BLAST of MC11g0181 vs. ExPASy Swiss-Prot
Match: Q7VG78 (Probable GMP synthase [glutamine-hydrolyzing] OS=Helicobacter hepaticus (strain ATCC 51449 / 3B1) OX=235279 GN=guaA PE=3 SV=1) HSP 1 Score: 173.7 bits (439), Expect = 8.8e-42 Identity = 87/202 (43.07%), Postives = 118/202 (58.42%), Query Frame = 0
BLAST of MC11g0181 vs. ExPASy Swiss-Prot
Match: P05100 (DNA-3-methyladenine glycosylase 1 OS=Escherichia coli (strain K12) OX=83333 GN=tag PE=1 SV=1) HSP 1 Score: 158.7 bits (400), Expect = 2.9e-37 Identity = 75/183 (40.98%), Postives = 112/183 (61.20%), Query Frame = 0
BLAST of MC11g0181 vs. ExPASy Swiss-Prot
Match: P44321 (DNA-3-methyladenine glycosylase OS=Haemophilus influenzae (strain ATCC 51907 / DSM 11121 / KW20 / Rd) OX=71421 GN=tag PE=3 SV=1) HSP 1 Score: 150.6 bits (379), Expect = 8.0e-35 Identity = 76/179 (42.46%), Postives = 108/179 (60.34%), Query Frame = 0
BLAST of MC11g0181 vs. ExPASy Swiss-Prot
Match: Q9C9Q4 (J domain-containing protein required for chloroplast accumulation response 1 OS=Arabidopsis thaliana OX=3702 GN=JAC1 PE=1 SV=1) HSP 1 Score: 94.4 bits (233), Expect = 6.8e-18 Identity = 161/563 (28.60%), Postives = 233/563 (41.39%), Query Frame = 0
BLAST of MC11g0181 vs. NCBI nr
Match: XP_022141128.1 (J domain-containing protein required for chloroplast accumulation response 1 isoform X2 [Momordica charantia]) HSP 1 Score: 1078 bits (2789), Expect = 0.0 Identity = 577/602 (95.85%), Postives = 577/602 (95.85%), Query Frame = 0
BLAST of MC11g0181 vs. NCBI nr
Match: XP_022141115.1 (J domain-containing protein required for chloroplast accumulation response 1 isoform X1 [Momordica charantia] >XP_022141122.1 J domain-containing protein required for chloroplast accumulation response 1 isoform X1 [Momordica charantia]) HSP 1 Score: 1078 bits (2789), Expect = 0.0 Identity = 577/602 (95.85%), Postives = 577/602 (95.85%), Query Frame = 0
BLAST of MC11g0181 vs. NCBI nr
Match: XP_022141137.1 (J domain-containing protein required for chloroplast accumulation response 1 isoform X3 [Momordica charantia]) HSP 1 Score: 988 bits (2554), Expect = 0.0 Identity = 538/602 (89.37%), Postives = 538/602 (89.37%), Query Frame = 0
BLAST of MC11g0181 vs. NCBI nr
Match: XP_022141145.1 (J domain-containing protein required for chloroplast accumulation response 1 isoform X4 [Momordica charantia]) HSP 1 Score: 986 bits (2550), Expect = 0.0 Identity = 537/602 (89.20%), Postives = 537/602 (89.20%), Query Frame = 0
BLAST of MC11g0181 vs. NCBI nr
Match: XP_038905512.1 (J domain-containing protein required for chloroplast accumulation response 1 isoform X1 [Benincasa hispida] >XP_038905513.1 J domain-containing protein required for chloroplast accumulation response 1 isoform X1 [Benincasa hispida] >XP_038905514.1 J domain-containing protein required for chloroplast accumulation response 1 isoform X1 [Benincasa hispida] >XP_038905515.1 J domain-containing protein required for chloroplast accumulation response 1 isoform X1 [Benincasa hispida]) HSP 1 Score: 746 bits (1925), Expect = 9.01e-258 Identity = 438/611 (71.69%), Postives = 473/611 (77.41%), Query Frame = 0
BLAST of MC11g0181 vs. ExPASy TrEMBL
Match: A0A6J1CH28 (J domain-containing protein required for chloroplast accumulation response 1 isoform X1 OS=Momordica charantia OX=3673 GN=LOC111011584 PE=4 SV=1) HSP 1 Score: 1078 bits (2789), Expect = 0.0 Identity = 577/602 (95.85%), Postives = 577/602 (95.85%), Query Frame = 0
BLAST of MC11g0181 vs. ExPASy TrEMBL
Match: A0A6J1CJL4 (J domain-containing protein required for chloroplast accumulation response 1 isoform X2 OS=Momordica charantia OX=3673 GN=LOC111011584 PE=4 SV=1) HSP 1 Score: 1078 bits (2789), Expect = 0.0 Identity = 577/602 (95.85%), Postives = 577/602 (95.85%), Query Frame = 0
BLAST of MC11g0181 vs. ExPASy TrEMBL
Match: A0A6J1CJ09 (J domain-containing protein required for chloroplast accumulation response 1 isoform X3 OS=Momordica charantia OX=3673 GN=LOC111011584 PE=4 SV=1) HSP 1 Score: 988 bits (2554), Expect = 0.0 Identity = 538/602 (89.37%), Postives = 538/602 (89.37%), Query Frame = 0
BLAST of MC11g0181 vs. ExPASy TrEMBL
Match: A0A6J1CH55 (J domain-containing protein required for chloroplast accumulation response 1 isoform X4 OS=Momordica charantia OX=3673 GN=LOC111011584 PE=4 SV=1) HSP 1 Score: 986 bits (2550), Expect = 0.0 Identity = 537/602 (89.20%), Postives = 537/602 (89.20%), Query Frame = 0
BLAST of MC11g0181 vs. ExPASy TrEMBL
Match: A0A5A7U7E5 (J domain-containing protein required for chloroplast accumulation response 1 OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold234G00360 PE=4 SV=1) HSP 1 Score: 704 bits (1816), Expect = 9.64e-242 Identity = 417/609 (68.47%), Postives = 456/609 (74.88%), Query Frame = 0
BLAST of MC11g0181 vs. TAIR 10
Match: AT1G75090.1 (DNA glycosylase superfamily protein ) HSP 1 Score: 315.8 bits (808), Expect = 1.0e-85 Identity = 161/314 (51.27%), Postives = 206/314 (65.61%), Query Frame = 0
BLAST of MC11g0181 vs. TAIR 10
Match: AT5G57970.1 (DNA glycosylase superfamily protein ) HSP 1 Score: 270.0 bits (689), Expect = 6.4e-72 Identity = 129/216 (59.72%), Postives = 155/216 (71.76%), Query Frame = 0
BLAST of MC11g0181 vs. TAIR 10
Match: AT5G57970.2 (DNA glycosylase superfamily protein ) HSP 1 Score: 270.0 bits (689), Expect = 6.4e-72 Identity = 129/216 (59.72%), Postives = 155/216 (71.76%), Query Frame = 0
BLAST of MC11g0181 vs. TAIR 10
Match: AT1G80850.1 (DNA glycosylase superfamily protein ) HSP 1 Score: 258.8 bits (660), Expect = 1.5e-68 Identity = 119/187 (63.64%), Postives = 146/187 (78.07%), Query Frame = 0
BLAST of MC11g0181 vs. TAIR 10
Match: AT1G15970.1 (DNA glycosylase superfamily protein ) HSP 1 Score: 244.2 bits (622), Expect = 3.8e-64 Identity = 139/342 (40.64%), Postives = 198/342 (57.89%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Bitter gourd (Dali-11) v1
Date Performed: 2021-10-25 Position : 0 Zoom : x 1
Relationships
The following mRNA feature(s) are a part of this gene:
GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
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